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Life Support for Ailing Reefs

 

By Jan Gerner

 

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Just off the coast of Dania Beach, Florida, in 40 feet of water lies a damage treasure of a different kind. A 6,000 reef, as precious to underwater ecology as the finest jewels ‑ once thought damaged beyond repair ‑ now has a chance to be healed. A scientific project there could hold the promise of reef regeneration, to undo the damage of too many anchor gouges and boat scrapes over centuries of time.

 

Using hollow, spherical, molded concrete "igloos" to promote marine growth, the program is being called ‑ for lack of a more glamorous name ‑ the Reef Ball Project.

 

Our reefs, the "rainforests of the sea," provide vital resources and services to millions. Without them the joys of boating and our marine recreation industry ‑ perhaps our entire planet ‑ could be in jeopardy.

 

But why is a 6,000‑year‑old reef off the coast of Dania Beach, Flori­da so important to the marine industry? The reasons are many and whether you are a recreational boater or you make your living on the water, the fate and well‑being of this ancient reef could have pro­found effects on future boating, diving and fishing.

 

 

A new underwater reef restoration system ‑ "Reef Balls" are clumped in surprisingly natural‑looking colonies, as festive grey family groups on the ocean floor.

 

Those of us who have leisurely floated over a reef, or spent time reef fishing, know the beauty and value of these natural resources. Found only in tropical and semi­tropical waters, coral reefs are some of the oldest, most diverse and productive ecosystems on earth. These "rainforests of the sea" provide livelihoods, recre­ation, tourism, food, protection from storms and erosion and more recently, medicines that hold the promise of cures for many dis­eases. In addition to benefiting the marine industry, healthy reef sys­tems, we find more and more, are an essential part of our ecology, even for landlubbers who never venture near the water.

 

One early morning in 1993 the USS Memphis, a 360‑foot nuclear submarine, ran aground a few hundred yards off Dania Beach, while preparing to conduct tests with the U.S. Naval Surface War­fare Center at Port Everglades. In the process of attempting to free itself from the grounding, the sub's propeller cut a 75 foot‑long trench through the coral reef, impacting an area of approximately 25,000

` square feet and totally destroying a 1,200‑square‑meter area of marine habitat. In seconds, a trea­sure that took thousands of years to form was destroyed.

 

The reef off Dania Beach has now become part of a scientific research project and restoration effort conducted by the National

Coral Reef Institute (NCRI). Research on reef restoration is one of the main goals of NCRI. The Institute, established in 1998 by congressional mandate, is located at Nova Southeastern University's (NSU) Oceanographic Center at the entrance to Port Everglades.

Florida sued the Navy for the loss of habitat and was awarded $750,000. A portion of those funds is now being used to study how to restore and repair the damage.

 

A new underwater system, called Reef Balls ‑ a commercial artificial reef design ‑ is being used as a tool in the restoration process and analysis. Reef Balls are the invention of Todd Barber, a young man compelled to do everything he can to save the world's coral reefs. Barber's quest began when his favorite reef in the Cayman Islands was destroyed by a hurri­cane. He wanted to do something about it, something different.

 

"Most artificial reefs are created by sinking ships or concrete rub­ble. This does nothing more than create an underwater junkyard," says Barber.

 

In addition to wanting to create something very different, Barber wanted to create something very permanent and he feels he has suc­ceeded, claiming that Reef Balls will last a minimum of 500 years. To date, half a million Reef Balls have been deployed in 3,200 pro­jects in 50 countries. Barber says studies are proving them to be more economical, stable and marine friendly than surplus ships and other debris.

 

Ranging in size from six inches to six feet and weighing from six pounds to 6,000 pounds, the 1,600­pound Reef Balls deployed at Dania Beach by NCRI are consid­ered mid‑sized. Under the supervi­sion of employees of Reef Ball, Inc., graduate students from NSU's Oceanographic Center made the modules from a special patented mold, with concrete suit­able for the marine environment. The surface texture of the balls allows tiny marine organisms to easily attach, while the varying hole sizes and cavities mimic nature, providing shelter for fish and marine invertebrates.

 

Resembling some strange offspring from outer space, the Reef Balls are towed to the site by barge, then lowered by sea‑going crane to their final resting place.

 

The pods ‑ 160 of them, resem­bling some strange offspring from outer space ‑ were towed to the site by  barge. Then a sea‑going crane lowered them, sporting cavities and hidey‑holes in their basic shells, to the bottom in 40 feet of water .  Arriving at their final resting place they are clumped in groups of four, as festive grey families in a surprisingly natural‑ looking colonv.

 

Forty quads cover an area approximately 700 yards by 300 yards wide. Ten quads have cinder blocks in the center, ten have plas­tic mesh in the center, ten have a mixture of block and mesh and ten are simply hollow in the center. Some have implanted areas of actual living corals, harvested from the local area to help propa­gate new coral growth.

 

According to Richard Spieler, Ph.D., professor and principal inves­tigator of the project, using different sized materials in the cavities of the Reef Balls will allow for differing refuge sizes that attract and shelter fish of many varieties, just as natural reefs do. Scientists are studying how the differing fish assemblages inter­act with the settlement, growth and mortality of coral.

 

Graduate students Elizabeth Glynn and Pat Quinn monitor the reef every three months to report on the restoration process. Glynn reports that the transplanted plugs of star and maze coral from a nearby healthy reef are grow­ing and attracting other coral. "This is hypothesis‑testing to formulate a recipe to restore reefs," says Glynn.

 

The way coral reefs propagate is well known to the scientific com­munity, according to Quinn. Research indicates that corals are attracted to areas where other corals are living. Once a year, dur­ing full moon periods, corals ‑ as do may other creatures and plants ‑produce fertilized spawn. In dense, colorful clouds, the larval spawn rises over the reefs. This "planula," as the larvae are called, drifts with the tides to other areas where they settle and form new colonies.

 

Quinn has also done two fish counts and reports that his "chil­dren" are doing very well.

 

"Fish have settled and grown," he says, "but we still haven't been able to answer one of the great mysteries of the artificial reef: are we increasing the fish population or just moving the population?"

 

Spieler points out that all anyone has to do is type in 'coral reef' o the Internet and they can learn the disturbing facts and statistics the world's coral reefs are in serious trouble. One dire prediction estimates that unless things

change in the next two to four decades, both human and natural causes will destroy 70% of the world's reef systems.

 

"There is hope on the horizon though," said Spieler. "This project will help us gain insight on ho best to restore coral reefs and ho to jumpstart the restoration process. Down the road, boaters fisherman and divers will benefit from this investigation."

 

A world without coral reef would be very different. It would be a world without habitats for  millions of species of marine animals  and plants, which would no longer be with us. Popular fishing and diving destination would no longer exist, meaning certain jobs would also be lost.

 

Our coastlines would be left unprotected and certain research possibilities of new cures for cancer, arthritis, HIV and other‑ diseases would be lost. The effects of a world without coral reefs would be far reaching. What makes restoring the reef damaged by the Memphis important is that it holds great hope and promise for other reefs. "Research and repair of damaged or down­  graded reef systems is vitally impor­tant," says Richard Dodge, Ph.D., dean of the Oceanographic Center and executive director of NCRI. "We

are making the link to help this hap­pen in a productive way with a cut­ting‑edge investigation."

 

The problems facing coral reefs today are staggering, but understanding the importance of coral reefs is a major step in the ongoing effort to save them. We all have a stake in  keeping our reef systems healthy.  They are our treasures of the deep.

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